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Dark matter at the heart of our galaxy?

image of dark matterNew study confirms the presence of dark matter in the inner part of the Milky Way.

Scientists have obtained for the first time a direct observational proof of the presence of dark matter in the innermost part the Milky Way, including at the Earth’s location and in our own ‘cosmic neighborhood’.

In a first step they created the most complete compilation of published measurements of the motion of gas and stars in the Milky Way. Then they compared the measured rotation speed with that expected under the assumption that only luminous matter exists in the Galaxy.

The comparison clearly showed that the observed rotation cannot be explained unless large amounts of dark matter exist around us, and between us and the galactic center.

“We know that dark matter is needed in our Galaxy to keep the stars and gas rotating at their observed speeds,” says Dr. Miguel Pato, who conducted the analysis at Technische Universität München. “However, we still do not know what dark matter is composed of. This is one of the most important science questions of our times.”

The ubiquitous presence of dark matter in the universe was established in the 1970s with a variety of techniques, including the measurement of the rotation speed of gas and stars, which provides a way to effectively ‘weigh’ the host galaxy and determine its total mass.

These measurements showed that the visible matter only accounts for a fraction of the total weight, the predominant part is delivered by dark matter.

Applying this technique to our own Galaxy is possible, and the existence of dark matter in the outer parts of the Milky Way is well ascertained. But up to now it has proven very difficult to establish the presence of dark matter in the innermost regions.

The diameter of our Galaxy is about 100,000 lightyears. Our Solar System is located at a distance of about 26,000 light years from the center. Coming closer to the center of our galaxy it becomes increasingly difficult to measure the rotation of gas and stars with the needed precision.

With future astronomical observations, the method will allow to measure the distribution of dark matter in our Galaxy with unprecedented precision, they said.

“This will permit to refine the understanding of the structure and evolution of our Galaxy. And it will trigger more robust predictions for the many experiments worldwide that search for dark matter particles,” says Miguel Pato, who meanwhile moved to The Oskar Klein Centre for Cosmoparticle Physics at the Stockholm University.

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